Semi-empirical
quantum chemistry
Quantum chemistry, also called molecular quantum mechanics, is a branch of physical chemistry focused on the application of quantum mechanics to chemical systems, particularly towards the quantum-mechanical calculation of electronic contribution ...
methods are based on the
Hartree–Fock formalism, but make many approximations and obtain some parameters from empirical data. They are very important in
computational chemistry
Computational chemistry is a branch of chemistry that uses computer simulation to assist in solving chemical problems. It uses methods of theoretical chemistry, incorporated into computer programs, to calculate the structures and properties of mo ...
for treating large molecules where the full Hartree–Fock method without the approximations is too expensive. The use of empirical parameters appears to allow some inclusion of
electron correlation effects into the methods.
Within the framework of Hartree–Fock calculations, some pieces of information (such as two-electron integrals) are sometimes approximated or completely omitted. In order to correct for this loss, semi-empirical methods are parametrized, that is their results are fitted by a set of parameters, normally in such a way as to produce results that best agree with experimental data, but sometimes to agree with
''ab initio'' results.
Type of simplifications used
Semi-empirical methods follow what are often called empirical methods where the two-electron part of the
Hamiltonian is not explicitly included. For π-electron systems, this was the
Hückel method proposed by
Erich Hückel. For all valence electron systems, the
extended Hückel method was proposed by
Roald Hoffmann.
Semi-empirical calculations are much faster than their ''ab initio'' counterparts, mostly due to the use of the
zero differential overlap approximation. Their results, however, can be very wrong if the molecule being computed is not similar enough to the molecules in the database used to parametrize the method.
Preferred application domains
Empirical research is a way of gaining knowledge by means of direct and indirect observation or experience.
Methods restricted to π-electrons
These methods exist for the calculation of electronically excited states of polyenes, both cyclic and linear. These methods, such as the
Pariser–Parr–Pople method
In molecular physics, the Pariser–Parr–Pople method applies semi-empirical quantum mechanical methods to the quantitative prediction of electronic structures and spectra, in molecules of interest in the field of organic chemistry. Previous meth ...
(PPP), can provide good estimates of the π-electronic excited states, when parameterized well. For many years, the PPP method outperformed ab initio excited state calculations.
Methods restricted to all valence electrons.
These methods can be grouped into several groups:
:* Methods such as
CNDO/2
CNDO is the abbreviation for Complete Neglect of Differential Overlap, one of the first semi empirical methods in quantum chemistry. It uses two approximations:
*core approximation - only the outer valence electrons are explicitly included.
* zero ...
,
INDO and
NDDO that were introduced by
John Pople
Sir John Anthony Pople (31 October 1925 – 15 March 2004) was a British theoretical chemist who was awarded the Nobel Prize in Chemistry with Walter Kohn in 1998 for his development of computational methods in quantum chemistry.
Early ...
. The implementations aimed to fit, not experiment, but ab initio minimum basis set results. These methods are now rarely used but the methodology is often the basis of later methods.
:* Semiempirical quantum mechanical methods GFNn-xTB
:* Methods that are in the
MOPAC
MOPAC is a popular computer program used in computational chemistry. It is designed to implement semi-empirical quantum chemistry algorithms, and it runs on Windows, Mac, and Linux.
MOPAC2016 is the current version. MOPAC2016 is able to perform c ...
,
AMPAC,
SPARTAN and/or
CP2K computer programs originally from the group of
Michael Dewar. These are
MINDO,
MNDO,
AM1,
PM3, and
SAM1. Here the objective is to use parameters to fit experimental heats of formation, dipole moments, ionization potentials, and geometries.
:* Methods whose primary aim is to calculate excited states and hence predict electronic spectra. These include
ZINDO and
SINDO.
The latter is the largest group of methods.
See also
*
List of quantum chemistry and solid-state physics software
Quantum chemistry computer programs are used in computational chemistry to implement the methods of quantum chemistry. Most include the Hartree–Fock (HF) and some post-Hartree–Fock methods. They may also include density functional theory (DF ...
References
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